Within adult rodent hippocampus (HPC), opioids suppress inhibitory parvalbumin-expressing interneurons (PV-INs), disinhibiting local microcircuits. However, it is unknown whether this disinhibitory motif is conserved across cortical regions, species, or development. We observed that PV-IN-mediated inhibition is robustly suppressed by opioids in HPC proper but not primary neocortex in mice and non-human primates, with spontaneous inhibitory tone in resected human tissue also following a consistent dichotomy. This hippocampal disinhibitory motif is established in early development when PV-INs and opioids regulate early population activity. Morphine pretreatment partially occludes this acute opioid-mediated suppression, with implications for the effects of opioids on hippocampal network activity important for learning and memory. Our findings demonstrate that PV-INs exhibit divergent opioid sensitivity across brain regions, which is remarkably conserved over evolution, and highlight the underappreciated role of opioids acting through immature PV-INs in shaping hippocampal development.
Keywords: GABA; development; evolution; hippocampus; interneuron; modulation; neocortex; opioid; parvalbumin; pre-synaptic.
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